Blue hydrogen must be done properly

Abstract: Future energy scenarios include both green and blue hydrogen, as both are needed to scale up decarbonized energy supply. A transition to renewable energy is predicted over time, but the urgency we are facing cannot be met by renewable energy alone. For blue hydrogen production, the overall greenhouse gas (GHG) emissions are primarily affected by emissions from natural gas production, processing, and transport (CO 2 and methane), as well as process efficiency and carbon capture ratio. Few complete and updated a… Show more

“…These findings are in line with recent publications. 154,157,158 5.3 Ammonia, liquefied hydrogen and methanol: marine vessels Aside from low carbon drop-in fuels compatible with existing vessels and bunkering infrastructure, alternative fuels including ammonia, hydrogen and methanol are widely regarded as the main options that can deliver deep levels of decarbonization in the marine sector. 22 Of these fuels, ammonia and methanol are often cited as leading contenders.…”

“…For methane reforming with CCS, the WtW emissions reductions depend on the reforming technology, the CO 2 capture rate, the emissions intensity of the natural gas supply chain, as well as the carbon intensity of the electricity consumed in the process. 154 The lifecycle GHG emissions reductions range from approximately 41% to 82% for the low and high scenarios, and 68% for the base case, which assumes SMR technology with a 90% capture rate. Although SMR is the benchmark process used for hydrogen production, 155 achieving high CO 2 capture rates requires removal of CO 2 from the high-pressure syngas (limited to ∼60%) and from the fired heater flue gas.…”

Low carbon transportation fuels: deployment pathways, opportunities and challenges

“…These findings are in line with recent publications. 154,157,158 5.3 Ammonia, liquefied hydrogen and methanol: marine vessels Aside from low carbon drop-in fuels compatible with existing vessels and bunkering infrastructure, alternative fuels including ammonia, hydrogen and methanol are widely regarded as the main options that can deliver deep levels of decarbonization in the marine sector. 22 Of these fuels, ammonia and methanol are often cited as leading contenders.…”

“…For methane reforming with CCS, the WtW emissions reductions depend on the reforming technology, the CO 2 capture rate, the emissions intensity of the natural gas supply chain, as well as the carbon intensity of the electricity consumed in the process. 154 The lifecycle GHG emissions reductions range from approximately 41% to 82% for the low and high scenarios, and 68% for the base case, which assumes SMR technology with a 90% capture rate. Although SMR is the benchmark process used for hydrogen production, 155 achieving high CO 2 capture rates requires removal of CO 2 from the high-pressure syngas (limited to ∼60%) and from the fired heater flue gas.…”

Low carbon transportation fuels: deployment pathways, opportunities and challenges

Carbon capture in blue hydrogen production is not where it is supposed to be - Evaluating the gap between practical experience and literature estimates

Low carbon power generation for offshore oil and gas production